An SVM-Based Classification and Stability Analysis of Synthetic Emulsions Co-Stabilized by a Nonionic Surfactant and Laponite Clay

A. A. Umar, I. Saaid, A. Sulaimon
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引用次数: 1

Abstract

Emulsions are metastable systems typically formed in the presence of surfactant mole- cules, amphiphilic polymers, or solid particles, as a mixture of two mutually immiscible liquids, one of which is dispersed as very small droplets in the other. These dispersions are unwanted occurrences in some areas, like those formed during crude oil production, but are also put into many other useful applications in the oil and gas industry, food industry, and construction industry, among others. These emulsions form when two immiscible liquids come together in the presence of an emulsifying agent and sufficient agitation strong enough to disperse one of the liquids in the other. Thermodynamically, these emulsions are unstable and thus would separate into their individual phases when left alone. To be stabilized, surface-active agents (surfactants) or solids (that act in so many ways like surfactants) ought to be used. Like many commercially available products, several phar- maceutical products are usually supplied in the form of emulsions that must be stabilized before they are being administered. Pharmaceutical emulsions used for oral administra- tion either as medications themselves or or emulsions Classifying such emulsions using results the use of a more scientific and intelligent method of classification. The objective of this study is to employ support vector machine (SVM) as a new technique to classify synthetic emulsions. The study will assess the effects of nonionic surfactant (sodium monooleate) and Laponite clay (LC) on the stability of synthetic emulsions prepared using a response surface methodology (RSM) based on a Box-Behnken design. The stability of the emulsions was measured using batch test and TurbiScan, and the SVM was used to classify the emulsions into stable, moderately stable and unstable emulsions. The study showed that an increase in surfactant concentration in the presence of moderate to high concentrations of LC can provide a stable emulsion. Also, a clear classification of the emulsion samples was provided by the SVM, with high accuracy and reduced misclas - sifications due to human error. A higher accuracy in classification would reduce the risk of using the wrong formulation for any pharmaceutical product.
非离子表面活性剂与拉脱土共稳定合成乳状液的svm分类及稳定性分析
乳剂是一种亚稳体系,通常在表面活性剂摩尔分子、两亲性聚合物或固体颗粒存在的情况下形成,是两种互不混溶的液体的混合物,其中一种液体以非常小的液滴的形式分散在另一种液体中。这些分散体在某些领域是不希望出现的,比如在原油生产过程中形成的分散体,但在石油和天然气工业、食品工业和建筑工业等领域也有许多其他有用的应用。当两种不混溶的液体在乳化剂的作用下聚集在一起,并充分搅拌,使其中一种液体分散到另一种液体中,就会形成乳化液。从热力学上讲,这些乳剂是不稳定的,因此当它们单独存在时,会分离成它们各自的相。为了稳定,应该使用表面活性剂(表面活性剂)或固体(在许多方面像表面活性剂一样起作用)。像许多市售产品一样,一些医药产品通常以乳剂的形式供应,在给药前必须稳定。用于口服给药的药物乳剂本身或乳剂,使用结果对乳剂进行分类是一种更科学、更智能的分类方法。本研究的目的是利用支持向量机(SVM)作为一种新技术对合成乳剂进行分类。本研究将评估非离子表面活性剂(单油酸钠)和拉脱土(LC)对基于Box-Behnken设计的响应面法(RSM)制备的合成乳剂稳定性的影响。采用间歇试验和TurbiScan对乳剂的稳定性进行测定,并采用支持向量机将乳剂分为稳定、中等稳定和不稳定三类。研究表明,在中至高浓度LC存在的情况下,增加表面活性剂的浓度可以提供稳定的乳液。支持向量机对乳化液样品进行了清晰的分类,准确率高,减少了人为错误造成的误分类。更高的分类准确性将降低任何药品使用错误配方的风险。
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